SU1362850A2 - Mine air-conditioning plant - Google Patents

Abstract

The invention relates to the mining industry. The purpose of the invention is to increase the efficiency of the installation by converting low-grade heat into high-grade heat and obtaining an additional amount of cold. For this, the unit has a heat pump 22 with a generator 23, an absorber 24, a condensation 3.1 52-50. H4-1 tor 25, a two-stage intercooler of compressed air with nozzles of the inlet 30 and outlet 31 of the first stage coolant 35, and a circulating piping system 33 and 34 supplying the coolant to the contact heat exchanger 6. The pump 22 transforms the waste heat that is supplied to the absorber 24 and the condenser 25. The generator 23 operates on a high-grade coolant 35 from the first stage of the intercoolers 29 of compressed air, which It is supplied through pipes 30 and 31. At the time of stopping the pump 22, the cooler 29 is switched to cooling with water circulating in the piping system 34. The inclusion in the air conditioning unit of the absorption heat pump 22 and the two-stage cooler 29 allows the chiller to be installed with greater cooling capacity and cooled. heat exchanger 6 air before being fed into the mine due to waste heat. 1 il. 39 0 41 .. TT7 jtfAv-fi Wvf2L L-1-, s cl with O5 GS 00 SP N

Description

The invention relates to the mining industry and can be used for air conditioning.

The purpose of the invention is to increase the efficiency of the installation by converting low-grade heat into high-grade heat and obtaining additional amounts of cold.

The drawing shows the mine air conditioning system.

The installation includes a supply piping system 1 and return 2 primary coolant connected to a compressor refrigeration machine. 3, containing the evaporator 4 and the condenser 5, the contact heat exchanger 6 with the first stage 7 and the second stage 8, equipped with regulators 9 and 10 of the mode of operation of the supply of atmospheric air. The first 7 and second 8 stages of the contact heat exchanger b are connected to pumps 11 and 12 of circulation systems and the barrel 13.

The installation is also equipped with an absorption chiller 14 with a generator 15, a condenser 16, an absorber 17 and an evaporator 18, which is connected to the coolant supply pump 19 to the compressor 4 compressor chiller 3 and the second stage 8 of the contact heat exchanger 6. The unit starts the pump 20 to supply the coolant to the generator 15. The condenser 5 of the compressor refrigerating machine 3 is connected to the end cooler 21 of the compressed air, the generator 15 of the absorption refrigerating machine 14 and the second stage 8 of the contact heat Ennika 6.

The installation additionally includes a heat pump 22 containing a generator 23, an absorber 24, a condenser 25 and an evaporator 26. At the same time, the evaporator 26 is connected to the coolant circulating pump 27, and the generator 23 to the coolant circulating pump 28 from the intermediate air cooler 29 through the inlet pipes 30 and output 31. The coolant supply pump 19 is connected to the second stage 8 of the contact heat exchanger 6 by the coolant pipeline 32. At the same time, the condenser 5 of the compressor chiller 3, the end cooler 21 and the intermediate air cooler 29 of the compressed air are connected by a piping system .33 and 34 of the circulation of the coolant and return of the coolant 35 through the system of valves 36-55 to the contact heat exchanger 6 and the heat pump 22.

The installation works as follows.

When the temperature of atmospheric air is below 2 ° C, the regulator 9 of the operating mode of the contact heat exchanger 6 is switched to individual operation of the first 7 and the second 8 stages in the air. In this case, the air of the first stage 7 is emitted into the atmosphere, and the second stage 8, with the aid of the mode control regulator 10, is fed into the barrel 13.

In accordance with the requirements of the PB when

the ambient air temperature is below -1-2 ° C before being fed into the barrel 13, it must be warmed up. For this purpose, the waste heat of condensation of the refrigerant of the compressor chiller 3 and compressed air obtained in the intermediate air coolers 29 and the end cooler 21 is used. The coolant from the condenser 5 is fed to the end cooler 21 of the compressed air and then through the circulation system 33

5 to the second stage 8 of the contact heat exchanger 6 and the pump 12 returns to the condenser 5. For this, the valves 36-38 are closed and the valves 39 and 41 are open.

8 This period of absorption refrigeration machine 4. Does not work and waste

0 heat is used to preheat atmospheric air before it enters the mine. At the same time, the coolant heated in the mine through pipeline 2 is supplied for cooling to the first stage 7

 contact heat exchanger 6, and then through the circulation system 35 with the help of pump 11 - for additional cooling to the evaporator 4 of the compressor refrigerating machine 3 and further to the mine via pipeline 2 to return the primary coolant. For

0 of this valve 43, 46, 50 and 52 are closed, and valves 42, 44, 47 and 49 are open.

If, during operation of the second stage 8 of the contact heat exchanger 6, the temperature of the air supplied to the mine does not rise to - | -2 ° C, then the first stage 7 of the contact heat exchanger 6 is switched on for heating the atmospheric air.

9 and 10 modes of operation, both stages for consistent work on the air, which simultaneously provides preliminary removal of heat from the primary coolant.

0

At the same time, the compressor refrigerating machine 3 can work only for the additional cooling of the coolant and the use of waste heat for preliminary heating.

from the atmospheric air due to the waste heat of condensation of the refrigerant of the compressor chiller 3 and cooling of the compressed air in the end cooler 21 and intermediate air coolers 29. When the temperature of the atmospheric air rises above - | -2 ° C, heating of the air supplied to the shaft is not required. In this drive, the cooling of the coolant coolant discharged from the mine through pipeline 2, the removal of heat from the condenser 5 of the compressor refrigerating machine

5 3 and compressed air coolers 21 and 29 are produced separately in the first 7 and second 8 stages of the contact heat exchanger 6 by atmospheric air. That's why

The operation mode regulator 10 closes the access of warm air to the barrel 13. The operation mode regulator 9 is set for individual operation of the first 7 and second 8 stages of the contact heat exchanger 6 with the release of warm air into the atmosphere.

Since at a temperature of atmospheric air equal to the temperature of the heated coolant discharged from the mine, it is almost impossible to preliminarily remove heat in the contact heat exchanger 6 at the expense of atmospheric air, during this period include an absorption refrigerating machine 14, which

The sa 22 operates on a high-grade coolant from the first stage of the intercooler of the compressed air, which is fed through the pipes 30 and 31 with the pump 28.

The condenser 16 of the absorption chiller 14 is cooled by a coolant, which is supplied from the evaporator 26 of the heat pump 22 by means of a pump

 The first stage of the two-stage intercooler of the compressed air 29 during the shutdown of the heat pump 22 is switched to water cooling by means of the valves 54 and 55, circulating consumed heat of condensation of the refrigerant in the piping system 34 through the compressor compressor refrigerating machine first stage 7 of the contact heat exchange 3, end 21 and intermediate 29 nickname 6.

coolers of compressed air, provides an additional inclusion in the mine at the same time pre-cooling the installation of air conditioning of the coolant absorbed in the mine cooling and cooling heat pump and two-stage cooling of the atmospheric air supplied by. wet intermediate coolers squeezed in the barrel 13 into the second 8 stages of the stack air allows you to install an absorption chiller of greater cold capacity and cool the air in the contact heat exchanger before it is fed into the mine due to waste heat of compressed air compressors.

heat exchanger 6. For this purpose, the heat pump 22 is switched on, which consumes the waste heat of the compressed air, taken in the first stage of the intermediate air coolers 29.

The waste heat transformed by the heat pump 22 is fed to the generator 15 of the absorption chiller 14. To this end, the coolant 35 and the coolant 33 and 34 of the DL of the air are switched by aut. St. No. 1213217, distinguished by the Invention Formula of the Mine;

as follows. Close the valves 36, 39, 44, 46, 47, 49, 51, 54, 55, open the valves 38, 40, 43, 45, 48, 50, 52, 53 and serve the heated coolant through pipeline 2 to the evaporator 18

 By the fact that, in order to increase the efficiency of the plant by converting low-grade heat into high-grade heat and obtaining additional cold, it is equipped with a heat-absorption chiller 14, where it is cooled down with a 35V pump with a generator, an absorber, and a pump 19 with a condenser, two-stage in the evaporator 4 of the compressor refrigerating machine 3 and further along the pipeline 1 - into the mine, and through the pipeline 32 - into the second stage 8 of the contact heat exchanger 6.

 coolant from cooling of condenser 5 by compressor machine 3 and absorber 17 by absorption machine 14, as well as the second stage of intercooled compressed air intercoolers with inlet and outlet nozzles of the first stage coolant and circulation system of the coolant supply pipelines to the contact heat exchanger, and the absorber and thermal condenser the pump is connected to the generator of an absorption chiller, and the generator

The heat pump is connected to the first compressed air cooler 29 to supply the intermediate air coolers compressed by suction 11 to cool the first air-air between the inlet and outlet nozzles of the 7th heat exchanger 6 Heatheater, while the evaporator absorber 15 is absorbed by the absorption cooling The ma- chiller is connected to the busbar 14; it operates at a high-potential second stage of the contact heat exchanger-coolant of the dbsorberger 24 and the condensator through the circulation system of the heat pump 22 heat pump 22 which is supplied by 50 coolant pipelines equipped with a do-pump 20. Thermal generator 23 with additional valves.

Compiled by I. Allagulov

Editor I. CasardTechred I. VeresKorrektor I. Muska

Order 5959/23 Circulation 429 Subscription

VNIIPI USSR State Committee for Inventions and Discoveries

113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Design. four

The sa 22 operates on a high-grade coolant from the first stage of the intercooler 29 of compressed air, which is supplied through the nozzles 30 and 31 by the pump 28.

The condenser 16 of the absorption chiller 14 is cooled by a coolant, which is supplied from the evaporator 26 of the heat pump 22 by means of

The first stage of a two-stage intermediate cooler 29 of compressed air in the period of stopping the heat pump 22 with the aid of valves 54 and 55 of the rear of the bus. St. No. 1213217, distinguished by the Invention Formula of the Mine;

 By the fact that, in order to increase the efficiency of the installation by converting low-grade heat into high-grade heat and obtaining additional cold, it is equipped with intercooled compressed air coolers with inlet pipes of the first stage coolant and the circulation system of the coolant supply pipelines to the contact heat exchanger, the absorber and condenser of the heat pump are connected to the generator of an absorption chiller, and the generator

Claims (1)

Claim Mine air conditioning installation J0 air ed. St. No. 1213217, characterized in that, in order to increase the efficiency of the installation by converting low-grade heat to high-grade heat and to obtain an additional amount of cold, it is equipped with a heat pump 5 with a generator, an absorber and a condenser, two-stage intermediate coolers of compressed air with inlet and outlet pipes the first stage coolant and the circulation system of the coolant supply pipes to the contact heat exchanger, the absorber and the condenser of the heat pump connecting They are connected to the generator of the absorption chiller, and the generator of the heat pump is connected to the first stage of the intermediate compressed air coolers between the inlet and outlet pipes of the coolant, while the evaporator of the absorption chiller is connected to the second stage of the contact heat exchanger through a circulation system of coolant pipelines equipped with additional valves. Editor I. Casarda Order 5959/23 Compiled by I. Allagulov Tehred I. Veres Corrector I. Muska Circulation 429 Subscription VNIIIPI of the USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and printing company, Uzhhorod, st. Design. 4